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**NOTE:** This is not released yet!
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The current release is a base for the upcoming TH2M process and further extension of the newly implemented non-isothermal Richards mechanics.
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The highlights of this release are collected in the overview with details below.
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## Overview
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- The reactive transport process and its Phreeqc interface were enhanced: extended the porosity interface and provide two ways of calculating solid/liquid ratio.
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- Many new MPL models were implemented including the Clausius-Clapeyron vapor pressure, the Somerton's thermal conductivity, the FEBEX and PMQ type vapour diffusion, a water vapour density property, a linear latent heat of water property.
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- Double structure porosity model in RM
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- Time dependent excavations
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The reactive transport process and its Phreeqc interface were enhanced: extended the porosity interface and provide two ways of calculating solid/liquid ratio.
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Many new material models were implemented including the Clausius-Clapeyron vapor pressure, the Somerton's thermal conductivity, the FEBEX and PMQ type vapour diffusion, a water vapour density property, and a linear latent heat of water property.
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A new process---the non-isothermal Richards mechanics---was implemented and extends our ability for complex thermo-hydro-mechanical interaction simulations further.
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The simpler Richards mechanics process was enhanced by a double structure porosity model, which has been used for simulations with Bentonite.
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Modelling of the excavations got a fine-grained time control over the excavation progress.
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The development environment...
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- CPM
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- spellcheck, cmake-format, clang-format
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- metrics in Gitlab, coverage
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